Safety guard for hand trucks or lift gates

ABSTRACT

A safety guard uses a strip switch to prevent injury at pinch points on either lift gates or pedestrian-operated industrial trucks. A strip switch is provided at the pinch point between the lift gate and the truck bed or vehicle body to stop or reverse operation of the lift gate when contacted by body parts or items improperly loaded on the lift gate. A strip switch may also be located adjacent the portions of a pedestrian-operated lift truck. The strip switch is disposed located about a portion of the perimeter of the pedestrian-operated lift truck adjacent the operator. Upon contacting the strip switch, the pedestrian-operated lift truck may be stopped or reversed to permit the operator to free his foot from the potential pinch point where injury can occur. Another approach to minimizing injury from pedestrian-operated lift trucks is to provide a semi-rigid guard attached to the platform body of the pedestrian-operated lift truck which reduces the size of the pinch point and minimizes the hazard of the pedestrian-operated lift truck overrunning an operator&#39;s foot.

TECHNICAL FIELD

This invention relates to safety devices for preventing injury frompinch points known to exist as a result of operation ofpedestrian-operated industrial trucks and vehicle-mounted lift gates.

BACKGROUND ART

Accidental injuries caused by operation of power driven machinery andequipment can create pinch points. Serious personal injuries haveoccurred and are foreseeable in the use of lift gates andpedestrian-operated industrial trucks.

Lift gates are provided on various vehicles such as tractor-trailers,delivery vans, moving vans and in a modified form on vehicles fortransporting handicapped persons in wheelchairs. Broadly defined, liftgates are movable platforms which may be lowered to load cargo onto thelift gate and then raised to a truck bed or vehicle doorway. As a liftgate is moved to its raised position, it is driven into contact with ormoved closely adjacent to the truck bed or vehicle body creating a pinchpoint. Foreseeable injuries to the foot of a person standing on a liftgate or the hand or arm of a person standing next to a lift gate,perhaps steadying a load on the lift gate, will occur if such body partsare placed in the pinch point between the lift gate and the truck bed orvehicle body. This can result in painful crushing injuries to feet,hands or arms which may cause disfiguring injuries, amputation, or evendeath.

Foreseeable improper operation of a lift gate can also cause damage toproperty transported by the lift gate if an object becomes caughtbetween the lift gate and the truck bed or vehicle body. For example,moving vans used by professional movers and untrained individualsfrequently are equipped with hydraulically-operated lift gates. If aload is improperly placed on the lift gate, it can become wedged in thepinch point resulting in damage to the property on the lift gate or thelift gate mechanism itself. If a load is improperly loaded and becomescaught in the pinch point, it is foreseeable that the load could shiftor even fall off the lift gate, causing injury to people near on oraround the lift gate.

One example of a prior art lift gate which incorporates a safety deviceis disclosed in U.S. Pat. No. 4,540,329 issued to Martin. The safetydevice disclosed in the Martin patent is intended to allow the lift gateto be safely lowered to the ground and minimize the chance for injury asthe lift gate is lowered to the ground. The Martin device does notinclude any provision for preventing injury as the lift gate is raised.In fact, the structure of the lift gate disclosed in Martin creates aguillotine-like action wherein the lift gate could sever the foot of aperson standing on a lift as the lift gate moves to the point at whichit passes by the truck bed to come to a raised position wherein the liftgate is at the same height as the truck bed.

Hydraulic lifts used for transporting handicapped persons in wheelchairssuch as that disclosed in U.S. Pat. No. 4,392,771 to Smalley have beendeveloped to minimize the chance of injury when lowering the lift to theground. Nothing is disclosed in the Smalley patent which would preventinjury in the event that a person's foot or wheelchair became trappedbetween the lift gate and the vehicle body. A wheelchair-confined personcould foreseeably suffer further debilitating injury by having theirfoot trapped between the gate and the vehicle body. In addition, if apart of the wheelchair became caught between the vehicle body and therising lift gate, the wheelchair could be damaged or, worse yet, flippedfrom the ramp on to the ground, possibly resulting in a serious injuryaccident.

Another Common and foreseeable injury involves pedestrian-operatedindustrial lift trucks which are moved and guided by an operator walkingalongside the lift truck and controlling the lift truck with a handlecontrol. U.S. Pat. No. 2,902,015 to Wylie discloses a safety system forpreventing injuries when the handle comes into contact with a wall, postor other object trapping or injuring the operator. The Wylie device doesnot include any safety system to prevent the industrial truck fromoverrunning the foot or even leg of the lift truck operator. Theoperator typically walks alongside or in front of thepedestrian-operated industrial truck which moves at walking speed orfaster, sometimes within a few inches of an operator's foot. It istherefore foreseeable that an operator's foot or leg could becometrapped between the bed of the industrial lift truck and the floor overwhich the truck is moved. It is foreseeable that a crushing injury to anoperator's foot or leg and serious lacerations could occur if they areoverrun by the pedestrian-operated industrial lift truck.

The above-stated foreseeable hazards and others establish that there isa long-felt need for a device for preventing injury as a result of theoperation of industrial lift trucks or lift gates.

SUMMARY OF THE INVENTION

It is an object of the present invention to provide a simple andinexpensive safety guard for lift gates and pedestrian-operatedindustrial trucks which include a power drive mechanism that is disabledor reversed upon sensing the presence of a body part or object in apinch point location.

It is another object of the present invention to provide an actuatorwhich opens a circuit including the drive motor when an object is sensedin a pinch point formed by raising a lift gate on a vehicle to a raisedposition so that the motor is disabled or reversed prior to theoccurrence of injury to hands, feet or arms extending into the pinchpoint area.

It is another object of the present invention to provide apedestrian-operated industrial lift truck with a safety system fordisabling or reversing the direction of movement of thepedestrian-operated industrial lift truck in the event that the lifttruck overruns the operator's foot or leg.

According to another aspect of the present invention, a vehicle liftgate system comprising a vehicle having an opening for receivingarticles which is defined in part by a lower edge and a lift gate whichis movable between a raised position adjacent the lower edge and alowered position spaced below the lower edge of the opening. The vehiclelift gate system includes a prime mover which is operatively connectedbetween the vehicle and the lift gate for driving the lift gate betweenits raised and lowered positions. A switch is electrically connected tothe prime mover to stop movement of the lift gate from the loweredposition toward the raised position. An actuator for the switch spansthe lower edge of the opening and is oriented to be actuated by thepresence of a foreign object disposed in the space between the lift gatein its lowered position and the lower edge of the opening when the liftgate is moved from the lowered position to the raised position. In theevent a foreign object contacts the actuator, the switch will beeffective to stop movement of the lift gate toward the raised positionbefore serious injury or damage can occur.

The above-described vehicle lift gate system can be applied to trucklift gates and lift gates for handicapped transport vehicles. Actuatorsusable with the vehicle lift gate system may include a strip switch,light beam switch or other proximity switch which extends into the areawhere the pinch point is located. The proximity switch may be locatedeither on the vehicle or on the lift gate and should be closely adjacentthe pinch point area when the lift gate is raised between the lift gateand the vehicle.

According to another aspect of the present invention, apedestrian-operated industrial lift truck which is adapted to beoperated on the floor is provided with a safety mechanism to eliminateinjury caused by the pedestrian-operated lift truck overrunning anoperator's or other person's foot or leg. The pedestrian-operatedindustrial lift truck preferably includes a platform body which issupported on a floor on a plurality of wheels. A driving motor issupported by the platform body and is operatively connected in a drivingrelationship to at least one of the wheels. A switch is electricallyconnected to the driving motor to selectively stop operation of thedriving motor. An actuator associated with the switch is securedadjacent the floor facing surface of the platform body whereby theactuator actuates the switch when the platform body overruns a foreignobject on the floor which is a sufficient height to contact the platformbody.

According to another aspect of the present invention, the switch may beelectrically connected to the driving motor so as to be actuatable toautomatically reverse operation of the driving motor along thepedestrian-operated industrial lift truck to automatically move clear ofthe operator's foot or leg.

The switch is preferably a strip switch mounted on the floor facingsurface of the platform body to provide a simple and reliable actuator.Alternatively, the pedestrian-operated industrial lift truck may beprovided with a semi-rigid guard attached to the platform body andextending toward the floor to minimize the gap between the platform bodyand the floor. The guard preferably spans the periphery of the platformand regions proximate the pedestrian operator where it would beforeseeable for the operator's foot to be overrun by the lift truck.

The above objects and other objects, features, and advantages of thepresent invention are readily apparent from the following detaileddescription of the best mode for carrying out the invention when takenin connection with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a side elevation view of a pedestrian-operated industrial lifttruck having the safety guard of the present invention;

FIG. 2 is a fragmentary bottom plan view taken along the line 2--2 inFIG. 1 showing the strip switch installed on the floor facing surface ofthe pedestrian-operated industrial lift truck;

FIG. 3 is a cross-sectional view taken along the line 3--3 in FIG. 2;

FIG. 4 is a simplified flow chart for the safety guard system for anindustrial lift truck;

FIG. 5 is a cross-sectional view of a passive guard installed on thefloor facing the surface of the pedestrian-operated industrial lifttruck;

FIG. 6 is a perspective view of a truck having a hydraulically-operatedlift gate including the safety guard of the present invention;

FIG. 7 is a cross-sectional view taken along the line 7--7 in FIG. 6;

FIG. 8 is a schematic rear elevation view of an alternative safety guardutilizing a light beam actuator;

FIG. 9 is a simplified flow chart of the safety guard system for ahydraulic lift gate;

FIG. 10 is a fragmentary perspective view of a lift gate for liftinghandicapped persons in wheelchairs into a vehicle which is equipped witha guard according to the present invention; and

FIG. 11 is a cross-sectional view taken along the line 11--11 in FIG.10.

BEST MODE FOR CARRYING OUT THE INVENTION

Referring now to FIG. 1, a pedestrian-operated industrial lift truck 10is shown which includes the safety guard 12 of the present invention.Safety guard 12 is attached to a platform 14 forming the bed of the lifttruck 10. Platform 14 has a floor facing surface 16 on which the safetyguard 12 is preferably mounted. As would be readily appreciated by oneof ordinary skill in the art, the safety guard 12 could be alternativelymounted on the lower edge of a rear perimeter portion 18 of the platform14. However, it is preferred that it be mounted on the floor facingsurface 16 to prevent damage to the safety guard 12. The lift truck 10has drive wheels 20 and front wheels 22. In the illustrated embodiment,however, other wheel arrangements commonly utilized in thepedestrian-operated industrial lift truck could incorporate the safetyguard 12 of the present invention.

A pair of forks 24 are provided on the front end of the lift truck 10. Ahandle 26 extends rearwardly from the rear perimeter 18. Handle 26 has ahand grip control 28 on its distal end. Hand grip control 28 is used tooperate the motor 30.

Referring now to FIG. 2, the component parts of the safety guard 12 areshown in greater detail. A mounting plate 32 supports a strip switchactuator 34 on the floor facing surface 16 of the platform 14.

Referring now to FIG. 3, first and second contacts 36 and 38 are shownwithin the strip switch actuator 34. First and second contacts 36 and 38are connected by wires to the power circuit of the motor 30.

Referring now to FIG. 4, a simplified flow chart of a portion of thelift truck 10 power circuit is shown wherein the strip switch actuator34 allows operation of the lift gate when it is clear. When the stripswitch actuator 34 is actuated, an emergency stop/reverse function 44 isenabled. Actuation of the strip switch actuator 34 could cause thecircuit to either stop the lift gate or reverse the motor 30 toautomatically clear any foreign objects being overrun by the lift truck10.

Referring now to FIG. 5, an alternative embodiment of the presentinvention is provided wherein the rear perimeter 18 of the platform 14may be protected by a semi-rigid "passive" guard 46, preferably formedof an elastomeric material. The guard 46 is provided to close the pinchpoint between the platform 14 and the floor minimizing the possibilityof the lift truck 10 overrunning a foreign object such as an operator'sfoot. This embodiment is simpler and it does not rely on an electricalcircuit to perform and may be incorporated on lift trucks simply andeasily with minimum cost of retrofitting. If the semi-rigid guard 46contacts an operator's foot, it is intended to bump the operator's footand move it rather than allow it to be overrun by the lift truck 10.

Referring now to FIG. 6, a truck 50 having a lift gate 52 is generallyillustrated. A safety guard 54 made according to the present inventionis provided on the truck 50 adjacent the point at which the lift gate 52moves as it approaches its raised position. The lift gate 52 is moved bymeans of hydraulic cylinders 56 in conjunction with guide links 58. Thetruck bed 60 generally extends somewhat rearwardly of the truck 50. Whenthe lift gate 52 is raised to its raised or upper position, its topsurface is essentially coplanar with the top surface of the truck bed60. In the lower position, the lift gate 52 preferably rests on theground so that objects to be loaded into the truck can be easily liftedinto the truck by first placing them on the platform and then raisingthe platform to the upper position.

Referring now to FIG. 7, the safety guard 54 is shown in greater detail.The safety guard 54 includes a mounting plate 62 which mounts a stripswitch actuator 64.

Referring now to FIG. 8, in an alternative embodiment, a photocell 66and light source 68 may be used to provide a light beam 70 which spansthe lower rear portion of the truck bed 60 so that any object passingthrough the light beam 70 causes the light beam 70 to be interrupted andhalts operation of the hydraulic cylinders 56.

Referring now to FIG. 9, a simplified flow chart for the lift gate isshown wherein the safety switch 54 is connected in the power circuit ofthe lift gate drive 72. The lift gate drive 72 is connected to safetyswitch 54 so that when switch 54 is actuated, power to the lift gatedrive 72 is interrupted. Alternatively, actuation of the safety switch54 could be used as an input to an emergency reverse circuit that wouldcause the lift gate drive 72 to reverse operation for a limited periodso that any object caught in the pinch point would be immediatelyreleased, minimizing the extent of injury.

Referring now to FIG. 10, another embodiment of the present invention isshown wherein a wheelchair lift gate 80 is provided on a vehicle 82 tolift persons in wheelchairs up to doorway 84 of the vehicle. The doorway84 includes a lower edge 86 which presents a pinch point as thewheelchair lift gate 80 is raised to its upper position. A safety guard88 is preferably provided at the end of the wheelchair lift gate 80closest to the vehicle 82.

Referring now to FIG. 11, a preferred embodiment of a safety guard 88 isan infrared proximity switch actuator 90 which is supported on thewheelchair lift gate 80 by means of a mounting bracket. The infraredproximity switch actuator would have a closely focused proximity sensingsystem which would be actuated upon placement of an object within apredetermined distance of between a few inches and a few feet above theactuator 90 that would cause the actuator to be actuated or reverseraising of the wheelchair lift gate 80 in a manner similar to thatdescribed with regard to the truck lift gate of FIGS. 6-9.

While several different embodiments of the present invention aredescribed above, it will be readily appreciated by one of ordinary skillin the art that many other combinations and variations may be used toachieve the simple and effective safety guard of the present invention.The preceding description of the different illustrated embodimentsshould not be read to limit the scope of the applicant's invention whichshould be construed in accordance with the following claims.

What is claimed is:
 1. A pedestrian-operated industrial lift truckadapted to be operated on a floor comprising:a platform body supportedover the floor on a plurality of wheels, said platform body and saidfloor defining a gap therebetween; a driving motor supported by theplatform body and operatively connected in a driving relationship to atleast one of said wheels; a switch electrically connected to the drivingmotor, said switch being actuable to selectively stop operation of thedriving motor; and an actuator coupled to said switch and mounted undera floor facing surface of the platform body, said actuator extendingfrom the floor facing surface towards the floor for engaging a foreignobject in the gad between said platform body and said floor whereby saidactuator actuates said switch when said platform body overruns foreignobjects on the floor which are of sufficient height to contact theactuator.
 2. The pedestrian-operated industrial lift truck of claim 1wherein the actuator is a strip switch spanning the periphery of theplatform body.
 3. The pedestrian-operated industrial lift truck of claim1 wherein the actuator is a light source and a photocell, said lightsource providing a light beam spanning the platform body so that theforeign objects on the floor which are of sufficient height interruptreception of the light beam by said photocell, whereby said actuatoractuates said switch.
 4. The pedestrian-operated industrial lift truckof claim 1 wherein the actuator is an infrared proximity sensor.
 5. Thepedestrian-operated industrial lift truck of claim 1 wherein the switchis connected to a circuit which reverses operation of the driving motorafter stopping operation of the driving motor upon actuation of theswitch to automatically move clear of the foreign objects on the floor.